Difference between revisions of "Tutorial: ISS"

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* 1x [[Inline Advanced Stabilizer]]
 
* 1x [[Inline Advanced Stabilizer]]
 
* 1x [[Kerbodyne S3-7200 Tank]]
 
* 1x [[Kerbodyne S3-7200 Tank]]
* 1x [[Kerbodyne KR-2L Advanced Engine]]
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* 1x [[LV-T45 Liquid Fuel Engine]]
** 8x [[Rockomax "Mainsail" Liquid Engine]]
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** 8x [[LV-T45 Liquid Fuel Engine]]
 
* 1x [[TR-XL Stack Separator]]
 
* 1x [[TR-XL Stack Separator]]
 
** 2x [[Kerbodyne S3-14400 Tank]] (One on top of the other)
 
** 2x [[Kerbodyne S3-14400 Tank]] (One on top of the other)
*** 1x [[Rockomax "Mainsail" Liquid Engine]]
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*** 1x [[LV-T45 Liquid Fuel Engine]]
**** 8x [[Rockomax "Mainsail" Liquid Engine]]
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**** 8x [[LV-T45 Liquid Fuel Engine]]
  
 
==Zarya - 1A/R==
 
==Zarya - 1A/R==

Revision as of 02:49, 23 June 2014

"It's fantastic. I can't say how much this means to all of us."

Robert Cabana, first person to enter the ISS

Welcome to my first tutorial! Here, we will try to re-enact one of the most important space programs: the International Space Station(ISS/MKC)

All of the designs are based on actual modules and rockets. Of course, I can't do it perfectly, but I am trying my best. Also, I am doing it without any mod parts, but I use MechJeb for autopilot. I will go and add more launches when I'll do them myself.

Vocabulary list

With LPA as α and object in sky as P

Just so you know, some terms I am using here :

  • Zenith - top side of the ship; usually oriented away from the orbited body.
  • Nadir - bottom side of the ship; usually oriented towards the orbited body.
  • Port - left side of the ship
  • Starboard - right side of the ship
  • Front - front side/end of the ship
  • Aft - back side/end of the ship
  • LPA - launch phase angle; angle between the vector of the launching rocket and the line drawn from the launchpad to another object in sky

Proton-K - Russian Launcher

Proton-8K82K

This is a recreation of the Russian rocket Proton 8K82K. I used it for all of the current modules, even if American modules were launched with the Space Shuttle.

Ship Design

STS - Space Shuttle

This is the American launcher. I'm trying to make a replica that is flyable and dockable. Unfortunately, it used a mechanical arm to dock modules, a thing we don't have.

Ship Design

Orbiter

External tank and solid rocket booster

Progress - resupply ship

Progress is an unmanned Russian resupply ship the routinely sends up supplies to the station as kerbalnauts need no food you can send up fuel and/or spare parts.

Ship design

  • You can add an extra fuel tank(s) or solar arrays if you want to actually send up stuff and not just let it be there.

Falcon 9 - Resupply ship

The Falcon 9 was developed by SpaceX and resupply the ISS with the Dragon capsule. The payload in real life is supplies but as kerbals need no supplies to live you can use it to send up fuel, solar arrays, science, or a tug. SpaceX is developing the Falcon Nine to be reusable. The first stage will fly back to the launch pad while the second stage is doing an orbit and then return to the launch pad. The Dragon capsule is along with the Soyus the only vehicle to return back to Earth intact.

Ship Design

Zarya - 1A/R

Zarya (Dawn in Russian) or FGB (Functional Cargo Block) was the first module of the ISS. FGB Zarya initially provided flight control as well as electricity and fuel supplies. Now, it is mostly used for storage. It is the connection between the Russian and American side of the station.

Ship Design

Zarya before launch
Statistics
Mass (full) 13.02 t
Δv (vacuum) 1 081 m/s

Front to aft (1st-level bullets indicate the body; 2nd-level indicates radially-mounted parts):

The Mission

The original Zarya launch happened on November 20, 1998. I can't find the original orbital information The module was placed on a Low Earth Orbit, which usually corresponds to 160 to 2000 km. The current ISS orbit is 402 km PE × 424 km AP with a 51.6° orbital inclination. So, if you want to make it good, launch as usual, with a gravity turn starting at 10 km. Turn towards 38.4 degrees (the 51.6 inclination). Continue until you reach 424 km apoapsis, then burn there to get 402 km periapsis. I'll have to test myself if it's possible with the current Proton-K design It is possible to achieve this orbit with precise flying or an autopilot. It leaves 60% of 3rd-stage fuel and a full on-station tank.

When you have the stable orbit, open the solar panels and the antennas. Move the station to orient it the good way (the one radial docking port facing the Earth; the HubMax towards your prograde vector). Transfer any fuel or electricity (if you are in the dark zone) then either undock the third stage or keep it until the Zvezda mission.

There you go, the ISS begins to exist!

Unity - 1A

Unity as seen in VAB
Statistics
Mass (full) 3.79 t

Unity, also known as Node 1, is the first American-only module on the ISS. It is basically a connector between many parts of the station. It was delivered with two PMA (Pressurized Mating Adapters), one that is permanently placed between Zarya and Unity, and the second has moved many times since its installation.

Ship Design

I can't really simulate the PMA's, because they aren't straight but a bit tilted. Here's what I did:


NOTE: : I made a little mistake, because the PMAs are supposed to be moveable. Check lower for info.

Mission Phases

The original launch happened 2 weeks after deployment of Zarya, on December 4, 1998.

Launch

For my launch, I had to use the Proton-K launcher, because there isn't any solid fuel boosters as powerful as was used by the Space Shuttle. It had two boosters, each at 12.5 MN while the Rockomax booster has only 300 kN (2.4%).

Try your best to put it on the same orbit as Zarya. If you have an auto-pilot, use the "Launch to rendezvous" function. If not, try to send it with Zarya at a 45 degree LPA. Once again, the orbit is 424 km AP × 402 km PE.

Rendez-vous

Check the tutorials on rendezvous and docking if you don't know how to. The goal is to attach one of the PMA ends (front or aft, they're symmetrical) to the Hubmax (front end). You may need to switch between vessels to put them in the right diretions.

They connected!

Unity connected to Zarya

On the actual mission, there were 3 EVA's to connect cables between the modules, and once to enter the ISS. As of 0.19.1, you can only do that last point. If you brought any Kerbonauts, put them in EVA and let them enter the Hitchhiker. After some time, get them back on what's left of your launcher.

Landing on Kerbin

I didn't use a manned pod, so I just dropped the launcher with as less fuel left as possible. Instead, try to return the Kerbonauts on the last stage of your Unity launcher. You can pump the fuel from the Zarya launcher if it's still docked; you'll also need the aft docking port of Zarya for the next mission.

Zvezda - 1R Coming Soon

Zvezda as seen in VAB
Zvezda connected to the ISS

What now

Possibly a lunar base? Let your imagination run wild!